MaHOS15 negatively regulates plant immune defense induced by banana fusarium wilt via salicylic acid pathway

Abstract

Fusarium wilt of banana (Musa acuminata) poses a significant threat to the banana industry globally. Salicylic acid (SA) serves as a crucial signaling molecule activating the plant's defense response against pathogen infections while also regulating various aspects of plant growth and development. High Expression of Osmotically Responsive Genes 15 (HOS15) acts as a transcriptional corepressor and an E3 ubiquitin ligase complex substrate receptor, playing an important role in regulating biological stress processes. However, the exact immune mechanism of MaHOS15 in the SA signaling pathway remains unclear. In this study, we utilized RT-qPCR, yeast two-hybridization, subcellular localization and allogeneic expression of Arabidopsis to explore MaHOS15's function against banana fusarium wilt. The expression changes of SA pathway-related factors MaNPR3, MaNPR4, MaNPR11, MaTGA8 and MaHOS15 in Foc TR4-resistant and Foc TR4-susceptible bananas infected with Foc TR4 were compared and analyzed. The results showed that the MaHOS15 expression trend in the two cultivars was opposite, while the expression trend of MaNPR4 and MaNPR11 was contrary to that of MaHOS15. Moreover, heterologous overexpression of MaHOS15 in Arabidopsis reduced the variance in SA-related signaling factors. The expression of MaHOS15 increased after defense activation, inhibiting the expression of SA-related immune factors, the immunoregulation of MaHOS15 and SA exhibited contrasting results. Collectively, these findings suggest that MaHOS15 negatively regulates plant immune defenses against banana Fusarium wilt via the salicylic acid pathway, offering potential applications in improving plant resistance to banana Fusarium wilt.